초록 ▼

A solar powered illuminated device is provided with a power module electrically connected to an illuminated module, the power module having a solar cell array electrically connected to a battery array having at least one rechargeable battery, the battery array being electrically connected to the ill

A solar powered illuminated device is provided with a power module electrically connected to an illuminated module, the power module having a solar cell array electrically connected to a battery array having at least one rechargeable battery, the battery array being electrically connected to the illuminated module. The power module utilizes a power charging mode during generally daylight hours to charge the battery array with energy generated and provided by the solar cell array, and a photo switching device to switch from the power charging mode to a power source mode during generally non-daylight hours to enable the battery array to discharge current to the illuminated module to light up one or more housings in the illuminated module with a light source mounted in each housing. A display plate manufactured of one or more or a combination of opaque, translucent and transparent materials is positioned adjacent or proximate to a non-reflective side of each housing to display any of alphanumeric characters, symbols and/or designs utilizing the device without illumination during the daylight hours and with illumination during non-daylight hours.

대표청구항 ▼

What is claimed is: 1. A solar powered illuminated device comprising: a power module electrically connected to at least one illuminated module, said power module comprising at least one solar cell array electrically connected to a battery array comprising at least one rechargeable battery, said pow

What is claimed is: 1. A solar powered illuminated device comprising: a power module electrically connected to at least one illuminated module, said power module comprising at least one solar cell array electrically connected to a battery array comprising at least one rechargeable battery, said power module further comprising a photo-switching device interconnected between said solar cell array and said battery array, said illuminated module comprising at least one housing having a display plate forming at least one non-reflective side thereof and reflective material on inner surfaces of substantially all other sides thereof, a light source mounted within each said housing and electrically connected to said battery array, said light source illuminating said inner surfaces of said display plate and said housing sides by reflective light, said display plate being manufactured of at least one of opaque, translucent and transparent materials, said illuminated module comprising a receptacle configured to retain from about 1 to about 5 said housings, each said housing having a respective said non-reflective side facing outwardly generally in the same direction, said receptacle having a translucent side substantially covering each said non-reflective side, said display plate corresponding to each said housing being mounted proximate said housing on an exterior obverse face of said translucent side, said receptacle further comprising a reflective side configured to enclose said receptacle, said reflective side having an interior face substantially covered with a reflective material. 2. The device of claim 1 wherein said photo-switching device is configured to switch said battery array from a power charging mode occurring during generally daylight hours to a power source mode occurring during generally non-daylight hours, said power charging mode comprising electrical charging of said battery array with electrical current generated and provided to it by said solar cell array, said power source mode comprising providing electrical current from said battery array to said light source for emitting light in said housing. 3. The device of claim 2 further comprising a uni-directional current component interconnected between said solar cell array and said battery array, said component configured to prevent current from discharging from said battery array during said power charging mode. 4. The device of claim 3 wherein said uni-directional current component comprises a blocking diode configured to prevent current flowing from said battery array to said solar cell array or to said illuminated device during said power charging mode. 5. The device of claim 1 wherein said power module is remote from said illuminated module and connected to said illuminated module via an electrical wiring cord. 6. The device of claim 5 wherein said battery array is remote from said illuminated module and mounted either adjacent to or within said power module, said electrical wiring cord connecting said power module to said battery array. 7. The device of claim 6 wherein said electrical wiring comprises a suitable multi-strand electrical interconnect. 8. The device of claim 5 wherein said battery array is mounted remote from said illuminated and power modules. 9. The device of claim 1 wherein said photo-switching device comprises at least one optically or electrically activated switch configured to allow each said light source to be illuminated by current from said battery array and to turn off each said light source during generally daylight hours and activate said solar cell array for charging said at least one rechargeable battery. 10. The device of claim 9 wherein said photo-switching device comprises a single said switch, said switch connected to and activated by said solar cell array and configured to open and close a circuit between said battery array and said illuminated device, said circuit being open during generally daylight hours and closed during generally non-daylight hours, said solar cell array being on a closed circuit with said battery array, said closed circuit comprising a blocking diode on a lead line from said solar cell array. 11. The device of claim 9 wherein said photo-switching device comprises a circuit board containing a blocking diode connected to a lead line from said solar cell array on said circuit board and a plurality of switches configured to switch said power module from a power charging mode during generally daylight hours to a power source mode during generally non-daylight hours, said power charging mode comprising electrical charging of said battery array with electrical current generated and provided to it by said solar cell array, said power source mode comprising providing electrical current from said battery array to each said light source for emitting light in said housing. 12. The device of claim 1 wherein said illuminated device comprises at least two said housings adjacent one another, said display plate on each said housing facing outwardly from said housing generally in the same direction. 13. The device of claim 12 wherein said display plates are configured to collectively display at least one set of alphanumerical characters. 14. The device of claim 12 wherein said display plates are configured to collectively display at least one symbol. 15. The device of claim 12 wherein said display plates are configured to collectively display at least one design. 16. The device of claim 1 wherein each of said display plates is configured to display at least one of the group consisting of a set of alphanumerical characters, a symbol and a design. 17. The device of claim 1 wherein each said light source comprises a light emitting diode. 18. The device of claim 1 wherein at least one said light source emits a non-white, colored light. 19. The device of claim 1 wherein at least one said light source emits a generally white light. 20. The device of claim 1 wherein each said housing further comprises a target mounted directionally generally opposite said light source, said target being configured to reflectively disperse light emitted from said light source. 21. The device of claim 20 wherein said target comprises a generally conical shape having a point aimed generally at said light source. 22. The device of claim 20 wherein said target comprises a generally hyperbolic or parabolic shape having a closed end aimed generally at said light source. 23. The device of claim 1 wherein said opaque, translucent and transparent materials are configured to display at least one alphanumeric character. 24. The device of claim 1 wherein said translucent and transparent materials comprise at least one non-white color. 25. The device of claim 1 wherein said reflective surfaces and said reflective material comprise at least one material selected from the group consisting of metalized film and metal foil. 26. The device of claim 25 wherein each said at least one material selected comprises a metallic material chosen from the group consisting of: aluminum, tin, silver and chrome. 27. The device of claim 1 wherein each said display plate comprises a translucent or transparent sheet having opaque material portions affixed to one side of said sheet. 28. The device of claim 27 further comprising a reflective film affixed to said sheet either between said sheet and said opaque material portions or on an opposite side of said sheet from said opaque material portions and generally oppositely corresponding to said opaque material portions. 29. A solar powered illuminated device comprising: a power module electrically connected to at least one illuminated module, said power module comprising at least one solar cell array electrically connected to a battery array comprising at least one rechargeable battery, said power module further comprising a photo-switching device interconnected between said solar cell array and said battery array, said illuminated module comprising at least one housing having a display plate forming at least one non-reflective side thereof and reflective material on inner surfaces of substantially all other sides thereof, a light source mounted within each said housing and electrically connected to said battery array, said light source illuminating said inner surfaces of said display plate and said housing sides by surface reflective light, said display plate being manufactured of at least one of opaque, translucent and transparent materials, said illuminated module comprises a top support and a base support, said top support comprising a plurality of upper guides for receiving an upper end of each said housing and a plurality of spaced apart electrical guide contacts, each said guide contact electrically connected to said battery array, said upper end of each said housing having corresponding receiver contacts for engaging one said contact when positioned within said top support, each said receiver contact electrically connected to said light source in said housing, said base support comprising a plurality of lower guides for receiving a lower end of each said housing. 30. The device of claim 29 wherein said electrical guide contacts are located along an underside of said top support to define docking locations for each said housing. 31. The device of claim 30 wherein said electrical guide contacts at each said docking location comprise a pair of flat, spring-type contact tabs and wherein said receiver contacts on each said housing comprise a pair of parallel flat ribbons. 32. The device of claim 29 further comprising first and second end plates, said first end plate connecting said top support and said base support at first ends thereof, said second end plate connecting said top support and said base support at second ends thereof. 33. The device of claim 29 wherein said first and second end display plates each have a hinge and a clamp for connecting to said top support and said base supports at the first and second ends thereof. 34. The device of claim 29 wherein said power module comprises a power housing having similar configuration to said housings, said power housing comprising said solar cell array on an outer face thereof and containing said battery array and said photo-switching device therein, said power housing having an upper and a lower end configured for engagement with said upper guides and said lower guides, respectively, said power housing further being electrically connected to said electrical guide contacts. 35. The device of claim 34 wherein said upper end of said power housing comprises connector contacts engaging corresponding connector contacts on said top support, said corresponding connector contacts being electrically connected to said electrical guide contacts, said connector contacts being electrically connected to said battery array. 36. The device of claim 34 wherein said power housing further comprises a connector terminal electrically connected to a corresponding connector terminal on said top support, said corresponding connector terminal being electrically connected to said electrical guide contacts, said connector terminal being electrically connected to said battery array. 37. A solar powered illuminated device comprising: a power module electrically connected to at least one illuminated module, said power module comprising at least one solar cell array electrically connected to a battery array comprising at least one rechargeable battery, said power module further comprising a photo-switching device and a blocking diode interconnected between said solar cell array and said battery array, said illuminated module comprising a receptacle configured to receive at least two housings, said receptacle having a translucent side substantially covering one non-reflective side of said housing and a reflective side substantially covering another side of said housing, said illuminated module further comprising a display plate corresponding to each said housing mounted to an exterior obverse face of said translucent side, said display plate being manufactured of at least one of opaque, translucent and transparent materials, and a light source mounted within each said housing and electrically connected to said battery array. 38. The device of claim 37 wherein said photo-switching device is configured to switch said battery array from a power charging mode occurring during generally daylight hours to a power source mode occurring during generally non-daylight hours, said power charging mode comprising electrical charging of said battery array with electrical current generated and provided to it by said solar cell array, said power source mode comprising providing electrical current from said battery array to said light source for emitting light in said housing, and said power module comprising a uni-directional current component interconnected between said solar cell array and said battery array, said component being figured to prevent current from discharging from said battery array during said power charging mode. 39. The device of claim 37 wherein said power module is remote from said illuminated module and connected to said illuminated module via an electrical wiring cord. 40. The device of claim 39 wherein said battery array is remote from said illuminated module and mounted either adjacent to or within said power module, said electrical wiring cord connecting said power modules to said battery array. 41. The device of claim 39 wherein said battery array is mounted remote from said power and illuminated modules. 42. The device of claim 37 wherein said photo-switching device comprises at least one optically or electrically activated switch configured to allow each said light source to be illuminated by current from said battery array and to turn off each said light source during generally daylight hours and activate said solar cell array for charging said at least one rechargeable battery. 43. The device of claim 37 wherein said display plates are configured to collectively display at least one of the group consisting of a set of alphanumerical characters, a symbol and a design. 44. The device of claim 37 wherein each said light source comprises a light emitting diode. 45. The device of claim 37 wherein at least one said light source emits a non-white, colored light. 46. The device of claim 37 wherein at least one said light source emits a generally white light. 47. The device of claim 37 wherein each said housing further comprises a target mounted directionally opposite said light source, said target being configured to reflectively disburse light emitted from said light source. 48. The device of claim 47 wherein said target comprises a generally conical shape having a point aimed generally at said light source. 49. The device of claim 47 wherein said target comprises a generally hyperbolic or parabolic shape having a closed end aimed generally at said light source. 50. The device of claim 37 wherein said opaque, translucent and transparent materials are configured to display at least one alphanumeric character. 51. The device of claim 37 wherein said translucent and transparent materials comprise at least one non-white color. 52. The device of claim 37 wherein each said display plate comprises a translucent or transparent sheet having opaque material portions affixed to one side of said sheet. 53. The device of claim 37 further comprising a reflective film affixed to said sheet either between said sheet and aid opaque material portions or on an opposite side of said sheet from said opaque material portions and generally oppositely corresponding to said opaque material portions. 54. A solar powered illuminated device comprising: a power module electrically connected to at least one illuminated module, said power module comprising at least one solar cell array electrically connected to a battery array comprising at least one rechargeable battery, said power module further comprising a photo-switching device and a blocking diode interconnected between said solar cell array and said battery array, said illuminated module comprising at least two housings each having a display plate covering at least one non-reflective side thereof and reflective material substantially covering inner surfaces of substantially all other sides thereof, a light source mounted within each said housing and electrically connected to said battery array, said light source illuminating said inner surfaces of said display plate and said housing sides with reflective light said display plate being manufactured of at least one of opaque, translucent and transparent materials, said illuminated module further comprising a top support and a base support, said top support comprising a plurality of upper guides for receiving an upper end of each said housing and a plurality of spaced apart electrical guide contacts, each said guide contact electrically connected to said battery array, said upper end of each said housing having corresponding receiver contacts for engaging one said contact when positioned within said top support, each said receiver contact electrically connected to said light source in said housing, said base support comprising a plurality of lower guides for receiving a lower end of each said housing, and further comprising first and second end plates, said first end plate connecting said top support and said base support at first ends thereof, said second end plate connecting said top support and said base support at second ends thereof. 55. The device of claim 54 wherein said photo-switching device is configured to switch said battery array from a power charging mode occurring during generally daylight hours to a power source mode occurring during generally non-daylight hours, said power charging mode comprising electrical charging of said battery array with electrical current generated and provided to it by said solar cell array, said power source mode comprising providing electrical current from said battery array to said light source for emitting light in said housing, and said power module comprising a uni-directional current component interconnected between said solar cell array and said battery array, said component being figured to prevent current from discharging from said battery array during said power charging mode. 56. The device of claim 54 wherein said power module is remote from said illuminated module and connected to said illuminated module via an electrical wiring cord. 57. The device of claim 54 wherein said power module comprises a power housing having similar configuration to said housings, said power housing comprising said solar cell array on an outer face thereof and containing said battery array and said photo-switching device therein, said power housing having an upper and a lower end configured for engagement with said upper guides and said lower guides, respectively, said power housing further being electrically connected to said electrical guide contacts. 58. The device of claim 57 wherein said upper end of said power housing comprises connector contacts engaging corresponding connector contacts on said top support, said corresponding connector contacts being electrically connected to said electrical guide contacts, said connector contacts being electrically connected to said battery array. 59. The device of claim 57 wherein said power housing further comprises a connector terminal electrically connected to a corresponding connector terminal on said top support, said corresponding connector terminal being electrically connected to said electrical guide contacts, said connector terminal being electrically connected to said battery array. 60. The device of claim 54 wherein said photo-switching device comprises at least one optically or electrically activated switch configured to allow each said light source to be illuminated by current from said battery array and to turn off each said light source during generally daylight hours and activate said solar cell array for charging said at least one rechargeable battery. 61. The device of claim 54 wherein said display plates are configured to collectively display at least one of the group consisting of a set of alphanumerical characters, a symbol and a design. 62. The device of claim 54 wherein each said light source comprises a light emitting diode. 63. The device of claim 54 wherein at least one said light source emits a non-white, colored light. 64. The device of claim 54 wherein at least one said light source emits a generally white light. 65. The device of claim 54 wherein each said housing further comprises a target mounted directionally opposite said light source, said target being configured to reflectively disburse light emitted from said light source. 66. The device of claim 65 wherein said target comprises a generally conical shape having a point aimed generally at said light source. 67. The device of claim 65 wherein said target comprises a generally hyperbolic or parabolic shape having a closed end aimed generally at said light source. 68. The device of claim 54 wherein said opaque, translucent and transparent materials are configured to display at least one alphanumeric character. 69. The device of claim 54 wherein said translucent and transparent materials comprise at least one non-white color. 70. The device of claim 54 wherein each said display plate comprises a translucent or transparent sheet having opaque material portions affixed to one side of said sheet. 71. The device of claim 54 further comprising a reflective film affixed to said sheet either between said sheet and aid opaque material portions or on an opposite side of said sheet from said opaque material portions and generally oppositely corresponding to said opaque material portions.